After 6 years in the trenches at MIT, I decided that I want to further science by helping scientists and engineers live more fulfilling, happy lives. I am now working as a [http://www.handelgroup.com life coach in Boston and New York City with the Handel Group]. The Handel Group currently teaches a class at MIT called [http://ocw.mit.edu/OcwWeb/Athletics--Physical-Education-and-Recreation/PE-550January--IAP--2007/CourseHome/index.htm Designing Your Life] that kicks off every IAP and continues through the year.

After 6 years in the trenches at MIT, I decided that I want to further science by helping scientists and engineers live more fulfilling, happy lives. I am now working as a [http://www.handelgroup.com life coach in Boston and New York City with the Handel Group]. The Handel Group currently teaches a class at MIT called [http://ocw.mit.edu/OcwWeb/Athletics--Physical-Education-and-Recreation/PE-550January--IAP--2007/CourseHome/index.htm Designing Your Life] that kicks off every IAP and continues through the year.

Synthetic Biology is centered on the goal of engineering cells to perform functions of use to humans. Just as an electrical engineer engineers with silicon and copper to build electrical circuits, a synthetic biologist engineers with protein and DNA to build intracellular circuits. My particular focus is the design of synthetic protein-protein interaction networks within cells. For my Ph.D. work, I defined a new type of intracellular device, called Post-Translational Device, or PTD. To that end, I have developed modular protein components that can be added to proteins and cause them to interact in a phospho-mediated manner.

I will post my Thesis presentation here... stay tuned!

The constructs and strains I've built

If you're interested in any of the constructs or strains I've built during my graduate work, email myself or Drew Endy (endy at stanford dot edu). Here's a spreadsheet of all of my constructs and strains: